#include "application.h"
#include "check.h"
#include "colors.h"
#include "config.h"
#include "error.h"
#include "internal.h"
#include "keatures.h"
#include "parse.h"
#include "print.h"
#include "proof.h"
#include "resources.h"
#include "witness.h"

#include <inttypes.h>
#include <string.h>
#include <unistd.h>

#define SOLVER_NAME "Kissat SAT Solver"

typedef struct application application;

struct application {
  kissat *solver;
  const char *input_path;
#ifndef NPROOFS
  const char *proof_path;
  file proof_file;
  int binary;
#endif
#if !defined(NPROOFS) || !defined(KISSAT_HAS_COMPRESSION)
  bool force;
#endif
  int time;
  int conflicts;
  int decisions;
  strictness strict;
  bool partial;
  bool witness;
  int max_var;
};

static void init_app (application *application, kissat *solver) {
  memset (application, 0, sizeof *application);
  application->solver = solver;
  application->witness = true;
  application->time = 0;
  application->conflicts = -1;
  application->decisions = -1;
  application->strict = NORMAL_PARSING;
}

static void print_common_dimacs_and_proof_usage (void) {
  printf ("\n");
  printf ("Furthermore '<dimacs>' is the input file in DIMACS format.\n");
#ifndef NPROOFS
  printf ("If '<proof>' is specified then a proof trace is written.\n");
#endif
}

static void print_complete_dimacs_and_proof_usage (void) {
  printf ("\n");
  printf ("Furthermore '<dimacs>' is the input file in DIMACS format.\n");
#ifdef KISSAT_HAS_COMPRESSION
  printf (
      "The solver reads from '<stdin>' if '<dimacs>' is unspecified.\n");
  printf (
      "If the path has a '.bz2', '.gz', '.lzma', '7z' or '.xz' suffix\n");
  printf ("then the solver tries to find a corresponding decompression\n");
  printf ("tool ('bzip2', 'gzip', 'lzma', '7z', or 'xz') to decompress\n");
  printf ("the input file on-the-fly after checking that the input file\n");
  printf ("has the correct format (starts with the corresponding\n");
  printf ("signature bytes).\n");
#endif
  printf ("\n");
#ifndef NPROOFS
  printf (
      "If '<proof>' is specified then a proof trace is written to the\n");
  printf (
      "given file.  If the file name is '-' then the proof is written\n");
  printf (
      "to '<stdout>'. In this case the ASCII version of the DRAT format\n");
  printf (
      "is used.  For real files the binary proof format is used unless\n");
  printf ("'--no-binary' is specified.\n");
  printf ("\n");
#ifdef KISSAT_HAS_COMPRESSION
  printf ("Writing of compressed proof files follows the same principle\n");
  printf ("as reading compressed files. The compression format is based\n");
  printf ("on the file suffix and it is checked that the corresponding\n");
  printf ("compression utility can be found.\n");
#else
  printf ("The solver was built without compression support. Therefore\n");
  printf ("compressed reading and writing are not available. This is\n");
  printf (
      "usually enforced by the '-p' (pedantic) configuration. If you\n");
  printf ("need compressed reading and writing then configure and build\n");
  printf ("the solver without '-p'. This will also speed-up file I/O.\n");
#endif
#else
  printf (
      "The solver was built without proof support. If you need proofs\n");
  printf ("use a configuration without '--no-proofs' nor '--ultimate'.\n");
#endif
}

static void print_force_usage (void) {
#if !defined(NPROOFS) && defined(KISSAT_HAS_COMPRESSION)
  printf ("  -f      force writing proofs (to existing CNF alike file)\n");
#elif !defined(NPROOFS) && !defined(KISSAT_HAS_COMPRESSION)
  printf ("  -f      force writing proofs or reading compressed files\n");
#elif defined(NPROOFS) && !defined(KISSAT_HAS_COMPRESSION)
  printf ("  -f      force reading compressed as uncompressed files\n");
#endif
}

static void print_common_usage (void) {
  printf ("usage: kissat [ <option> ... ] [ <dimacs> "
#ifndef NPROOFS
          "[ <proof> ] "
#endif
          "]\n"
          "\n"
          "where '<option>' is one of the following common options:\n"
          "\n"
          "  -h      print this list of common command line options\n"
          "  --help  print complete list of command line options\n");
  printf ("\n");
  print_force_usage ();
#if !defined(QUIET) && defined(LOGGING)
  printf ("  -l      increase logging level (implies '-v' twice)\n");
#endif
  printf ("  -n      do not print satisfying assignment\n");
#ifndef QUIET
  printf ("\n");
  printf ("  -q      suppress all messages\n");
  printf ("  -s      print complete statistics\n");
  printf ("  -v      increase verbose level\n");
#endif
  print_common_dimacs_and_proof_usage ();
}

static void print_complete_usage (void) {
  printf ("usage: kissat [ <option> ... ] [ <dimacs> "
#ifndef NPROOFS
          "[ <proof> ] "
#endif
          "]\n"
          "\n"
          "where '<option>' is one of the following common options:\n"
          "\n"
          "  --help  print this list of all command line options\n"
          "  -h      print only reduced list of command line options\n");
  printf ("\n");
  print_force_usage ();
#if !defined(QUIET) && defined(LOGGING)
  printf ("  -l      print logging messages"
#ifndef NOPTIONS
          " (see also '--log')"
#endif
          "\n");
#endif
  printf ("  -n      do not print satisfying assignment\n");
#ifndef QUIET
  printf ("\n");
  printf ("  -q      suppress all messages"
#ifndef NOPTIONS
          " (see also '--quiet')"
#endif
          "\n");
  printf ("  -s      print all statistics"
#ifndef NOPTIONS
          " (see also '--statistics')"
#endif
          "\n");
  printf ("  -v      increase verbose level"
#ifndef NOPTIONS
          " (see also '--verbose')"
#endif
          "\n");
#endif
  printf ("\n");
  printf ("Further '<option>' can be one of the "
          "following less frequent options:\n");
  printf ("\n");
  printf ("  --banner             print solver information\n");
  printf ("  --build              print build information\n");
  printf ("  --color              "
          "use colors (default if connected to terminal)\n");
  printf ("  --no-color           "
          "no colors (default if not connected to terminal)\n");
  printf ("  --compiler           print compiler information\n");
  printf ("  --copyright          print copyright information\n");
#if !defined(NOPTIONS) && defined(EMBEDDED)
  printf ("  --embedded           print embedded option list\n");
#endif
#ifndef NPROOFS
  printf ("  --force              same as '-f' (force writing proof)\n");
#endif
  printf ("  --id                 print 'git' identifier (SHA-1 hash)\n");
#ifndef NOPTIONS
  printf ("  --range              print option range list\n");
#endif
  printf ("  --relaxed            relaxed parsing"
          " (ignore DIMACS header)\n");
  printf ("  --strict             stricter parsing"
          " (no empty header lines)\n");
  printf ("  --version            print version\n");
  printf ("\n");
  printf ("The following solving limits can be enforced:\n");
  printf ("\n");
  printf ("  --conflicts=<limit>\n");
  printf ("  --decisions=<limit>\n");
  printf ("  --time=<seconds>\n");
  printf ("\n");
  printf (
      "Satisfying assignments have by default values for all variables\n");
  printf (
      "unless '--partial' is specified, then only values are printed\n");
  printf ("for variables which are necessary to satisfy the formula.\n");
  printf ("\n");
#ifndef NOPTIONS
  printf ("The following predefined 'configurations' (option settings) are "
          "supported:\n");
  printf ("\n");
  kissat_configuration_usage ();
  printf ("\n");
  printf ("Or '<option>' is one of the following long options:\n\n");
  kissat_options_usage ();
#else
  printf ("The solver was configured without options ('--no-options').\n");
  printf ("Thus all internal options are fixed and can not be changed.\n");
  printf ("If you want to change them at run-time use a configuration\n");
  printf (
      "without '--no-options'. Note, that '--extreme', '-competition'\n");
  printf ("as well as '--ultimate' all enforce '--no-options' as well.\n");
#ifdef SAT
  printf ("The '--sat' option is ignored since set at compile time.\n");
#elif UNSAT
  printf ("The '--unsat' option is ignored since set at compile time.\n");
#else
  printf ("The '--default' option is ignored but allowed.\n");
#endif
#endif
  print_complete_dimacs_and_proof_usage ();
}

static bool parsed_one_option_and_return_zero_exit_code (char *arg) {
  if (!strcmp (arg, "-h")) {
    print_common_usage ();
    return true;
  }
  if (!strcmp (arg, "--help")) {
    print_complete_usage ();
    return true;
  }
  if (!strcmp (arg, "--banner")) {
    kissat_banner (0, SOLVER_NAME);
    return true;
  }
  if (!strcmp (arg, "--build")) {
    kissat_build (0);
    return true;
  }
  if (!strcmp (arg, "--copyright")) {
    for (const char **p = kissat_copyright (), *line; (line = *p); p++)
      printf ("%s\n", line);
    return true;
  }
  if (!strcmp (arg, "--compiler")) {
    printf ("%s\n", kissat_compiler ());
    return true;
  }
#if !defined(NOPTIONS) && defined(EMBEDDED)
  if (!strcmp (arg, "--embedded")) {
    kissat_print_embedded_option_list ();
    return true;
  }
#endif
  if (!strcmp (arg, "--id")) {
    printf ("%s\n", kissat_id ());
    return true;
  }
#ifndef NOPTIONS
  if (!strcmp (arg, "--range")) {
    kissat_print_option_range_list ();
    return true;
  }
#endif
  if (!strcmp (arg, "--version")) {
    printf ("%s\n", kissat_version ());
    return true;
  }
  return false;
}

static const char *single_first_option_table[] = {
    "-h",         "--help",      "--banner",
    "--build",    "--copyright", "--compiler",
#if !defined(NOPTIONS) && defined(EMBEDDED)
    "--embedded",
#endif
    "--id",
#ifndef NOPTIONS
    "--range",
#endif
    "--version"};

static bool single_first_option (const char *arg) {
  const unsigned size = sizeof single_first_option_table / sizeof (char *);
  for (unsigned i = 0; i < size; i++)
    if (!strcmp (single_first_option_table[i], arg))
      return true;
  return false;
}

#define ERROR(...) \
  do { \
    kissat_error (__VA_ARGS__); \
    return false; \
  } while (0)

#ifndef NPROOFS

static bool most_likely_existing_cnf_file (const char *path) {
  if (!kissat_file_readable (path))
    return false;

  if (kissat_has_suffix (path, ".dimacs"))
    return true;
  if (kissat_has_suffix (path, ".dimacs.7z"))
    return true;
  if (kissat_has_suffix (path, ".dimacs.bz2"))
    return true;
  if (kissat_has_suffix (path, ".dimacs.gz"))
    return true;
  if (kissat_has_suffix (path, ".dimacs.lzma"))
    return true;
  if (kissat_has_suffix (path, ".dimacs.xz"))
    return true;

  if (kissat_has_suffix (path, ".cnf"))
    return true;
  if (kissat_has_suffix (path, ".cnf.7z"))
    return true;
  if (kissat_has_suffix (path, ".cnf.bz2"))
    return true;
  if (kissat_has_suffix (path, ".cnf.gz"))
    return true;
  if (kissat_has_suffix (path, ".cnf.lzma"))
    return true;
  if (kissat_has_suffix (path, ".cnf.xz"))
    return true;

  return false;
}

#endif

#ifndef NPROOFS

#define LONG_FALSE_OPTION(ARG, NAME) \
  (!strcmp ((ARG), "--no-" NAME) || !strcmp ((ARG), "--" NAME "=0") || \
   !strcmp ((ARG), "--" NAME "=false"))

#endif

#define LONG_TRUE_OPTION(ARG, NAME) \
  (!strcmp ((ARG), "--" NAME) || !strcmp ((ARG), "--" NAME "=1") || \
   !strcmp ((ARG), "--" NAME "=true"))

static bool parse_options (application *application, int argc,
                           char **argv) {
  kissat *solver = application->solver;
  const char *strict_option = 0;
#ifndef NOPTIONS
  const char *configuration = 0;
#endif
#if !defined(NPROOFS) || !defined(KISSAT_HAS_COMPRESSION)
  const char *force_option = 0;
#endif
  const char *valstr;
  for (int i = 1; i < argc; i++) {
    const char *arg = argv[i];
    if (single_first_option (arg))
      ERROR ("option '%s' only allowed as %s argument", arg,
             i == 1 ? "single" : "first");
#if !defined(NPROOFS) || !defined(KISSAT_HAS_COMPRESSION)
    else if (!strcmp (arg, "-f") || LONG_TRUE_OPTION (arg, "force") ||
             LONG_TRUE_OPTION (arg, "forced")) {
      if (application->force) {
        assert (force_option);
        if (!strcmp (force_option, arg))
          ERROR ("multiple '%s' options", force_option);
        else
          ERROR ("'%s' and '%s' have the same effect", force_option, arg);
      }
      application->force = true;
      force_option = arg;
    }
#endif
    else if (LONG_TRUE_OPTION (arg, "relax") ||
             LONG_TRUE_OPTION (arg, "relaxed")) {
      if (strict_option) {
        if (application->strict != RELAXED_PARSING)
          ERROR ("can not combine contradictory '%s' and '%s'",
                 strict_option, arg);
        else if (!strcmp (strict_option, arg))
          ERROR ("multiple '%s' options", strict_option);
        else
          ERROR ("'%s' and '%s' have the same effect", strict_option, arg);
      }
      application->strict = RELAXED_PARSING;
      strict_option = arg;
    } else if (LONG_TRUE_OPTION (arg, "strict") ||
               LONG_TRUE_OPTION (arg, "stricter") ||
               LONG_TRUE_OPTION (arg, "pedantic")) {
      if (strict_option) {
        if (application->strict != PEDANTIC_PARSING)
          ERROR ("can not combine contradictory '%s' and '%s'",
                 strict_option, arg);
        else if (!strcmp (strict_option, arg))
          ERROR ("multiple '%s' options", strict_option);
        else
          ERROR ("'%s' and '%s' have the same effect", strict_option, arg);
      }
      application->strict = PEDANTIC_PARSING;
      strict_option = arg;
    }
#if defined(LOGGING) && !defined(QUIET) && !defined(NOPTIONS)
    else if (!strcmp (arg, "-l")) {
      int value = GET_OPTION (log);
      if (value < INT_MAX)
        value++;
      kissat_set_option (solver, "log", value);
    }
#endif
    else if (!strcmp (arg, "-n"))
      application->witness = false;
#if !defined(QUIET) && !defined(NOPTIONS)
    else if (!strcmp (arg, "-q"))
      kissat_set_option (solver, "quiet", 1);
    else if (!strcmp (arg, "-s"))
      kissat_set_option (solver, "statistics", 1);
    else if (!strcmp (arg, "-v")) {
      int value = GET_OPTION (verbose);
      if (value < INT_MAX)
        value++;
      kissat_set_option (solver, "verbose", value);
    }
#endif
    else if (!strcmp (arg, "--color") || !strcmp (arg, "--colors") ||
             !strcmp (arg, "--colour") || !strcmp (arg, "--colours"))
      kissat_force_colors ();
    else if (!strcmp (arg, "--no-color") || !strcmp (arg, "--no-colors") ||
             !strcmp (arg, "--no-colour") || !strcmp (arg, "--no-colours"))
      kissat_force_no_colors ();
    else if ((valstr = kissat_parse_option_name (arg, "time"))) {
      int val;
      if (kissat_parse_option_value (valstr, &val) && val > 0) {
        if (application->time > 0)
          ERROR ("multiple '--time=%d' and '%s'", application->time, arg);
        application->time = val;
        alarm (val);
      } else
        ERROR ("invalid argument in '%s' (try '-h')", arg);
    } else if ((valstr = kissat_parse_option_name (arg, "conflicts"))) {
      int val;
      if (kissat_parse_option_value (valstr, &val) && val >= 0) {
        if (application->conflicts >= 0)
          ERROR ("multiple '--conflicts=%d' and '%s'",
                 application->conflicts, arg);
        kissat_set_conflict_limit (solver, val);
        application->conflicts = val;
      } else
        ERROR ("invalid argument in '%s' (try '-h')", arg);
    } else if ((valstr = kissat_parse_option_name (arg, "decisions"))) {
      int val;
      if (kissat_parse_option_value (valstr, &val) && val >= 0) {
        if (application->decisions >= 0)
          ERROR ("multiple '--decisions=%d' and '%s'",
                 application->decisions, arg);
        kissat_set_decision_limit (solver, val);
        application->decisions = val;
      } else
        ERROR ("invalid argument in '%s' (try '-h')", arg);
    } else if (!strcmp (arg, "--partial"))
      application->partial = true;
#ifndef NPROOFS
    else if (LONG_FALSE_OPTION (arg, "binary"))
      application->binary = -1;
#endif
#ifndef NOPTIONS
    else if (arg[0] == '-' && arg[1] == '-' &&
             kissat_has_configuration (arg + 2)) {
      if (configuration)
        ERROR ("multiple configurations '%s' and '%s'", configuration, arg);
      kissat_set_configuration (solver, arg + 2);
      configuration = arg;
    } else if (arg[0] == '-' && arg[1] == '-') {
      char name[kissat_options_max_name_buffer_size];
      int value;
      if (!kissat_options_parse_arg (arg, name, &value))
        ERROR ("invalid long option '%s' (try '-h')", arg);
      kissat_set_option (solver, name, value);
    }
#else
#ifdef SAT
    else if (!strcmp (arg, "--sat"))
      ;
#elif defined(UNSAT)
    else if (!strcmp (arg, "--unsat"))
      ;
#else
    else if (!strcmp (arg, "--default"))
      ;
#endif
    else if (arg[0] == '-' && arg[1] == '-')
      ERROR ("invalid long option '%s' "
             "(configured with '--no-options')",
             arg);
#endif
#ifdef QUIET
    else if (arg[0] == '-' && !arg[2] &&
             (arg[1] == 'q' || arg[1] == 's' || arg[1] == 'v'))
      ERROR ("invalid short option '%s' (configured with '-q')", arg);
#endif
#ifndef LOGGING
    else if (!strcmp (arg, "-l"))
      ERROR ("invalid short option '%s' "
             "(configured without '-l' or '-g')",
             arg);
#endif
#ifdef NOPTIONS
    else if (arg[0] == '-' && !arg[2] &&
             (arg[1] == 'l' || arg[1] == 'q' || arg[1] == 's' ||
              arg[1] == 'v'))
      ERROR ("invalid short option '%s' "
             "(configured with '--no-options')",
             arg);
#endif
    else if (arg[0] == '-' && arg[1])
      ERROR ("invalid short option '%s' (try '-h')", arg);
#ifndef NPROOFS
    else if (application->proof_path)
      ERROR ("three file arguments '%s', '%s' and '%s' (try '-h')",
             application->input_path, application->proof_path, arg);
#endif
    else if (application->input_path) {
#ifndef NPROOFS
      const char *input_path = application->input_path;
      if (!strcmp (input_path, arg))
        ERROR ("will not read and write '%s' at the same time", input_path);
#ifdef KISSAT_HAS_COMPRESSION
      {
        char *real_input_path = realpath (input_path, 0);
        if (real_input_path) {
          char *real_arg_path = realpath (arg, 0);
          if (real_arg_path) {
            if (!strcmp (real_input_path, real_arg_path)) {
              if (strcmp (arg, real_arg_path) &&
                  strcmp (input_path, real_input_path))
                ERROR ("will not read and write '%s' and '%s' "
                       "pointing to the same file '%s'",
                       input_path, arg, real_input_path);
              else
                ERROR ("will not read and write '%s' and '%s' "
                       "pointing to the same file",
                       input_path, arg);
            }
            free (real_arg_path);
          }
          free (real_input_path);
        } else
          ERROR ("can not get absolute path of '%s' (unexpectedly)",
                 input_path);
      }
#endif
      if (!application->force && most_likely_existing_cnf_file (arg))
        ERROR ("not writing proof to '%s' file (use '-f')", arg);
      if (!kissat_file_writable (arg))
        ERROR ("can not write proof to '%s'", arg);
      application->proof_path = arg;
#else
      ERROR ("two file arguments '%s' and '%s' without proof support "
             "(try '-h')",
             application->input_path, arg);
#endif
    } else {
      if (!kissat_file_readable (arg))
        ERROR ("can not read '%s'", arg);
      application->input_path = arg;
    }
  }
#ifndef KISSAT_HAS_COMPRESSION
  if (!application->force && application->input_path &&
      kissat_looks_like_a_compressed_file (application->input_path))
    ERROR ("reading apparently compressed '%s' not supported "
           "(use '-f' to force reading without decompression)",
           application->input_path);
#endif
#if !defined(QUIET) && !defined(NOPTIONS)
  if (kissat_get_option (solver, "quiet")) {
    if (kissat_get_option (solver, "statistics"))
      ERROR ("can not use '--quiet' ('-q') with '--statistics' ('-s')");
    if (kissat_get_option (solver, "verbose"))
      ERROR ("can not use '--quiet' ('-q') with '--verbose' ('-v')");
  }
#endif
  return true;
}

static bool parse_input (application *application) {
#ifndef QUIET
  double entered = kissat_process_time ();
#endif
  kissat *solver = application->solver;
  uint64_t lineno;
  file file;
  const char *path = application->input_path;
  if (!path)
    kissat_read_already_open_file (&file, stdin, "<stdin>");
  else if (!kissat_open_to_read_file (&file, path))
    ERROR ("failed to open '%s' for reading", path);
  kissat_section (solver, "parsing");
  kissat_message (solver, "opened and reading %sDIMACS file:",
                  file.compressed ? "compressed " : "");
  kissat_line (solver);
  kissat_message (solver, "  %s", file.path);
  kissat_line (solver);
  const char *error = kissat_parse_dimacs (
      solver, application->strict, &file, &lineno, &application->max_var);
  kissat_close_file (&file);
  if (error)
    ERROR ("%s:%" PRIu64 ": parse error: %s", file.path, lineno, error);
#ifndef QUIET
  kissat_message (solver, "closing input after reading %s",
                  FORMAT_BYTES (file.bytes));
  if (file.compressed) {
    assert (path);
    size_t bytes = kissat_file_size (path);
    kissat_message (solver, "inflated input file of size %s by %.2f",
                    FORMAT_BYTES (bytes),
                    kissat_average (file.bytes, bytes));
  }
  kissat_message (solver, "finished parsing after %.2f seconds",
                  kissat_process_time () - entered);
#endif
  return true;
}

#ifndef NPROOFS

static bool write_proof (application *application) {
  const char *path = application->proof_path;
  if (!path)
    return true;
  file *file = &application->proof_file;
  bool binary = true;
  if (!strcmp (path, "-")) {
    binary = false;
    kissat_write_already_open_file (file, stdout, "<stdout>");
  } else if (!kissat_open_to_write_file (file, path))
    ERROR ("failed to open and write proof to '%s'", path);
  else if (application->binary < 0)
    binary = false;
  kissat_init_proof (application->solver, file, binary);
#ifndef QUIET
  kissat *solver = application->solver;
  kissat_section (solver, "proving");
  kissat_message (solver, "%swriting proof to %sDRAT file:",
                  file->close ? "opened and " : "",
                  file->compressed ? "compressed " : "");
  kissat_line (solver);
  kissat_message (solver, "  %s", file->path);
#endif
  return true;
}

static void close_proof (application *application) {
  const char *path = application->proof_path;
  if (!path)
    return;
  kissat_release_proof (application->solver);
  kissat_close_file (&application->proof_file);
}

#endif

#ifndef QUIET

#ifndef NOPTIONS
static void print_option (kissat *solver, int value, const opt *o) {
  char buffer[96];
  const bool b = (o->low == 0 && o->high == 1);
  const char *val_str = FORMAT_VALUE (b, value);
  const char *def_str = FORMAT_VALUE (b, o->value);
  sprintf (buffer, "%s=%s", o->name, val_str);
  kissat_message (solver, "--%-30s (%s default '%s')", buffer,
                  (value == o->value ? "same as" : "different from"),
                  def_str);
}
#endif

#ifndef NOPTIONS
static void print_options (kissat *solver) {
  const int verbosity = kissat_verbosity (solver);
  if (verbosity < 0)
    return;
  size_t printed = 0;
  for (all_options (o)) {
    const int value = *kissat_options_ref (&solver->options, o);
    if (o->value != value || verbosity > 0) {
      if (!printed++)
        kissat_section (solver, "options");

      print_option (solver, value, o);
    }
  }
}
#endif

static void print_limits (application *application) {
  kissat *solver = application->solver;
  const int verbosity = kissat_verbosity (solver);
  if (verbosity < 1 && application->conflicts < 0 &&
      application->decisions < 0)
    return;

  kissat_section (solver, "limits");
  if (!application->time && application->conflicts < 0 &&
      application->decisions < 0)
    kissat_message (solver, "no time, conflict nor decision limit set");
  else {
    if (application->time)
      kissat_message (solver, "time limit set to %d seconds",
                      application->time);
    else if (verbosity > 0)
      kissat_message (solver, "no time limit");

    if (application->conflicts >= 0)
      kissat_message (solver, "conflict limit set to %d conflicts",
                      application->conflicts);
    else if (verbosity > 0)
      kissat_message (solver, "no conflict limit");

    if (application->decisions >= 0)
      kissat_message (solver, "decision limit set to %d decisions",
                      application->decisions);
    else if (verbosity > 0)
      kissat_message (solver, "no decision limit");
  }
}

#endif

static int run_application (kissat *solver, int argc, char **argv,
                            bool *cancel_alarm_ptr) {
  *cancel_alarm_ptr = false;
  if (argc == 2)
    if (parsed_one_option_and_return_zero_exit_code (argv[1]))
      return 0;
  application application;
  init_app (&application, solver);
  bool ok = parse_options (&application, argc, argv);
  if (application.time > 0)
    *cancel_alarm_ptr = true;
  if (!ok)
    return 1;
#ifndef QUIET
  kissat_section (solver, "banner");
  if (!GET_OPTION (quiet)) {
    kissat_banner ("c ", SOLVER_NAME);
    fflush (stdout);
  }
#endif
#ifndef NPROOFS
  if (!write_proof (&application))
    return 1;
#endif
  if (!parse_input (&application)) {
#ifndef NPROOFS
    close_proof (&application);
#endif
    return 1;
  }
#ifndef QUIET
#ifndef NOPTIONS
  print_options (solver);
#endif
  print_limits (&application);
  kissat_section (solver, "solving");
#endif
  int res = kissat_solve (solver);
#ifndef NPROOFS
  close_proof (&application);
#endif
  if (res) {
    kissat_section (solver, "result");
    if (res == 20) {
      printf ("s UNSATISFIABLE\n");
      fflush (stdout);
    } else if (res == 10) {
#ifndef NDEBUG
      if (GET_OPTION (check))
        kissat_check_satisfying_assignment (solver);
#endif
      printf ("s SATISFIABLE\n");
      fflush (stdout);
      if (application.witness)
        kissat_print_witness (solver, application.max_var,
                              application.partial);
    }
  }
#ifndef QUIET
  kissat_print_statistics (solver);
#endif
#ifndef QUIET
  kissat_section (solver, "shutting down");
  kissat_message (solver, "exit %d", res);
#endif
  return res;
}

int kissat_application (kissat *solver, int argc, char **argv) {
  bool cancel_alarm;
  int res = run_application (solver, argc, argv, &cancel_alarm);
  if (cancel_alarm)
    alarm (0);
  return res;
}
